Avoiding partial functions
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Revision as of 21:41, 5 June 2012
There are several partial functions in the Haskell standard library. If you use them, you always risk to end up with an undefined. In this article we give some hints how to avoid them, leading to code that you can be more confident about.
For a partial function f the general pattern is: Whereever we write "check whether x is in the domain of f before computing f x", we replace it by combination of check and computation of f.
Contents |
1 fromJust
You should replace
if isNothing mx then g else h (fromJust mx)
by
case mx of Nothing -> g Just x -> h x
2 head, tail
You should replace
if null xs then g else h (head xs) (tail xs)
by
case xs of [] -> g y:ys -> h y ys
3 init, last
You may replace
if null xs then g else h (init xs) (last xs)
by
case xs of [] -> g y:ys -> uncurry h $ viewRTotal y ys viewRTotal :: a -> [a] -> ([a], a) viewRTotal x xs = forcePair $ foldr (\x0 go y -> case go y of ~(zs,z) -> (x0:zs,z)) (\y -> ([],y)) xs x forcePair :: (a,b) -> (a,b) forcePair ~(a,b) = (a,b)
4 (!!)
You should replace
if k < length xs then xs!!k else y
by
case drop k xs of x:_ -> x [] -> y
length
5 irrefutable pattern match on (:)
You should replace
if k < length xs then let (prefix,x:suffix) = splitAt k xs in g prefix x suffix else y
by
case splitAt k xs of (prefix,x:suffix) -> g prefix x suffix (_,[]) -> y
6 minimum
The functionisLowerLimit
minimum
isLowerLimit :: Ord a => a -> [a] -> Bool isLowerLimit x ys = x <= minimum ys
ys
You should replace it by
isLowerLimit x = all (x<=)
x
x
Thus it is also faster for finite lists. Even more: It also works for empty lists.
